public void doRightUpdates(
NotNode notNode,
LeftTupleSink sink,
BetaMemory bm,
InternalWorkingMemory wm,
RightTupleSets srcRightTuples,
LeftTupleSets trgLeftTuples,
LeftTupleSets stagedLeftTuples) {
LeftTupleMemory ltm = bm.getLeftTupleMemory();
RightTupleMemory rtm = bm.getRightTupleMemory();
ContextEntry[] contextEntry = bm.getContext();
BetaConstraints constraints = notNode.getRawConstraints();
boolean iterateFromStart =
notNode.isIndexedUnificationJoin() || rtm.getIndexType().isComparison();
for (RightTuple rightTuple = srcRightTuples.getUpdateFirst(); rightTuple != null; ) {
RightTuple next = rightTuple.getStagedNext();
PropagationContext context = rightTuple.getPropagationContext();
constraints.updateFromFactHandle(contextEntry, wm, rightTuple.getFactHandle());
FastIterator leftIt = notNode.getLeftIterator(ltm);
LeftTuple firstLeftTuple = notNode.getFirstLeftTuple(rightTuple, ltm, context, leftIt);
LeftTuple firstBlocked = rightTuple.getTempBlocked();
// first process non-blocked tuples, as we know only those ones are in the left memory.
for (LeftTuple leftTuple = firstLeftTuple; leftTuple != null; ) {
// preserve next now, in case we remove this leftTuple
LeftTuple temp = (LeftTuple) leftIt.next(leftTuple);
if (leftTuple.getStagedType() == LeftTuple.UPDATE) {
// ignore, as it will get processed via left iteration. Children cannot be processed twice
leftTuple = temp;
continue;
}
// we know that only unblocked LeftTuples are still in the memory
if (constraints.isAllowedCachedRight(contextEntry, leftTuple)) {
leftTuple.setBlocker(rightTuple);
rightTuple.addBlocked(leftTuple);
// this is now blocked so remove from memory
ltm.remove(leftTuple);
LeftTuple childLeftTuple = leftTuple.getFirstChild();
if (childLeftTuple != null) {
childLeftTuple.setPropagationContext(rightTuple.getPropagationContext());
RuleNetworkEvaluator.deleteRightChild(childLeftTuple, trgLeftTuples, stagedLeftTuples);
}
}
leftTuple = temp;
}
if (firstBlocked != null) {
RightTuple rootBlocker = rightTuple.getTempNextRightTuple();
if (rootBlocker == null) {
iterateFromStart = true;
}
FastIterator rightIt = notNode.getRightIterator(rtm);
// iterate all the existing previous blocked LeftTuples
for (LeftTuple leftTuple = firstBlocked; leftTuple != null; ) {
LeftTuple temp = leftTuple.getBlockedNext();
leftTuple.clearBlocker();
if (leftTuple.getStagedType() == LeftTuple.UPDATE) {
// ignore, as it will get processed via left iteration. Children cannot be processed
// twice
// but need to add it back into list first
leftTuple.setBlocker(rightTuple);
rightTuple.addBlocked(leftTuple);
leftTuple = temp;
continue;
}
constraints.updateFromTuple(contextEntry, wm, leftTuple);
if (iterateFromStart) {
rootBlocker = notNode.getFirstRightTuple(leftTuple, rtm, null, rightIt);
}
// we know that older tuples have been checked so continue next
for (RightTuple newBlocker = rootBlocker;
newBlocker != null;
newBlocker = (RightTuple) rightIt.next(newBlocker)) {
// cannot select a RightTuple queued in the delete list
// There may be UPDATE RightTuples too, but that's ok. They've already been re-added to
// the correct bucket, safe to be reprocessed.
if (leftTuple.getStagedType() != LeftTuple.DELETE
&& newBlocker.getStagedType() != LeftTuple.DELETE
&& constraints.isAllowedCachedLeft(contextEntry, newBlocker.getFactHandle())) {
leftTuple.setBlocker(newBlocker);
newBlocker.addBlocked(leftTuple);
break;
}
}
if (leftTuple.getBlocker() == null) {
// was previous blocked and not in memory, so add
ltm.add(leftTuple);
// subclasses like ForallNotNode might override this propagation
trgLeftTuples.addInsert(
sink.createLeftTuple(leftTuple, sink, rightTuple.getPropagationContext(), true));
}
leftTuple = temp;
}
}
rightTuple.clearStaged();
rightTuple = next;
}
constraints.resetFactHandle(contextEntry);
constraints.resetTuple(contextEntry);
}
public void doRightInserts(
NotNode notNode,
BetaMemory bm,
InternalWorkingMemory wm,
RightTupleSets srcRightTuples,
LeftTupleSets trgLeftTuples,
LeftTupleSets stagedLeftTuples) {
LeftTupleMemory ltm = bm.getLeftTupleMemory();
RightTupleMemory rtm = bm.getRightTupleMemory();
ContextEntry[] contextEntry = bm.getContext();
BetaConstraints constraints = notNode.getRawConstraints();
// this must be processed here, rather than initial insert, as we need to link the blocker
unlinkNotNodeOnRightInsert(notNode, bm, wm);
for (RightTuple rightTuple = srcRightTuples.getInsertFirst(); rightTuple != null; ) {
RightTuple next = rightTuple.getStagedNext();
rtm.add(rightTuple);
if (ltm == null || ltm.size() == 0) {
// do nothing here, as no left memory
rightTuple.clearStaged();
rightTuple = next;
continue;
}
FastIterator it = notNode.getLeftIterator(ltm);
PropagationContext context = rightTuple.getPropagationContext();
constraints.updateFromFactHandle(contextEntry, wm, rightTuple.getFactHandle());
for (LeftTuple leftTuple = notNode.getFirstLeftTuple(rightTuple, ltm, context, it);
leftTuple != null; ) {
// preserve next now, in case we remove this leftTuple
LeftTuple temp = (LeftTuple) it.next(leftTuple);
if (leftTuple.getStagedType() == LeftTuple.UPDATE) {
// ignore, as it will get processed via left iteration. Children cannot be processed twice
leftTuple = temp;
continue;
}
// we know that only unblocked LeftTuples are still in the memory
if (constraints.isAllowedCachedRight(contextEntry, leftTuple)) {
leftTuple.setBlocker(rightTuple);
rightTuple.addBlocked(leftTuple);
// this is now blocked so remove from memory
ltm.remove(leftTuple);
// subclasses like ForallNotNode might override this propagation
// ** @TODO (mdp) need to not break forall
LeftTuple childLeftTuple = leftTuple.getFirstChild();
if (childLeftTuple != null) { // NotNode only has one child
childLeftTuple.setPropagationContext(rightTuple.getPropagationContext());
RuleNetworkEvaluator.deleteLeftChild(childLeftTuple, trgLeftTuples, stagedLeftTuples);
}
}
leftTuple = temp;
}
rightTuple.clearStaged();
rightTuple = next;
}
constraints.resetFactHandle(contextEntry);
}